Method of making floor panels with edge connectors

ABSTRACT

Floor covering, including hard floor panels which, at least at the edges of two opposite sides, are provided with coupling parts, cooperating which each other, substantially in the form of a tongue and a groove, wherein the coupling parts are provided with integrated mechanical locking elements which prevent the drifting apart of two coupled floor panels in a direction (R) perpendicular to the related edges and parallel to the underside of the coupled floor panels, and provide a snap-action coupling.

RELATED APPLICATION DATA

This application is a continuation of application Ser. No. 11/215,010, filed Aug. 31, 2005, which is a continuation of Ser. No. 10/266,669, filed Oct. 9, 2002, which is a continuation of Ser. No. 09/471,014, filed Dec. 23, 1999, now U.S. Pat. No. 6,490,836; which is a continuation of Ser. No. 08/872,044, filed Jun. 10, 1997, now U.S. Pat. No. 6,006,486.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to hard floor panels.

2. Related Technology

In the first instance, the invention is intended for so-called laminated floors, but generally it can also be applied for other kinds of floor covering, consisting of hard floor panels, such as veneer parquet, prefabricated parquet, or other floor panels which can be compared to laminated flooring.

It is known that such floor panels can be applied in various ways.

According to a first possibility, the floor panels are attached at the underlying floor, either by glueing or by nailing them on. This technique has a disadvantage that is rather complicated and that subsequent changes can only be made by breaking out the floor panels.

According to a second possibility, the floor panels are installed loosely onto the subflooring, whereby the floor panels mutually match into each other by means of a tongue and groove coupling, whereby mostly they are glued together in the tongue and groove, too. The floor obtained in this manner, also called a floating parquet flooring, has as an advantage that it is easy to install and that the complete floor surface can move which often is convenient in order to receive possible expansion and shrinkage phenomena.

A disadvantage with a floor covering of the above-mentioned type, above all, if the floor panels are installed loosely onto the subflooring, consists in that during the expansion of the floor and its subsequent shrinkage, the floor panels themselves can drift apart, as a result of which undesired gaps can be formed, for example, if the glue connection breaks.

In order to remedy this disadvantage, techniques have already been through of whereby connection elements made of metal are provided between the single floor panels in order to keep them together. Such connection elements, however, are rather expensive to make and, furthermore, their provision or the installation thereof is a time-consuming occupation.

Examples of embodiments which apply such metal connection elements are described, among others, in the documents WO 94/26999 and WO 93/13280.

Furthermore, couplings are known which allow coupling parts to snap fit into each other, e.g., from the documents WO 94/1628, WO 96/27719 and WO 96/27721. The snapping-together effect obtained with these forms of embodiment, however, does not guarantee a 100-percent optimum counteraction against the development of gaps between the floor panels, more particularly, because in fact well-defined plays have to be provided in order to be sure that the snapping-together is possible.

From GB 424.057, a coupling for parquetry parts is known which, in consideration of the nature of the coupling, only is appropriate for massive wooden parquetry.

Furthermore, there are also couplings for panels known from the documents GB 2.117.813, GB 2,256.023 and DE 3.544.845. These couplings, however, are not appropriate for connecting floor panels.

BRIEF SUMMARY OF THE INVENTION

The invention aims at an improved floor covering of the aforementioned type, the floor panels of which can be coupled to each other in an optimum manner and/or the floor panels of which can be manufactured in a smooth manner, and whereby preferably one or more of the aforementioned disadvantages are excluded.

The invention also aims at a floor covering which has the advantage that no mistakes during installing, such as gaps and such, can be created.

Furthermore, the invention also aims at a floor covering whereby the subsequent development of gaps is excluded or at least counteracted in an optimum manner, whereby also the possibility of the penetration of dirt and humidity is minimalized.

To this aim, the invention relates to a floor covering, consisting of hard floor panels which, at least at the edges of the two opposite sides, are provided with coupling parts, cooperating which each other, substantially in the form of a tongue and a groove, wherein the coupling parts are provided with integrated mechanical locking elements which prevent the drifting apart of two coupled floor panels into a direction perpendicular to the related edges and parallel to the underside of the coupled floor panels. Hereby, these coupling parts are optimalized in such a manner that they allow that any form of play is counteracted and preferably is excluded.

By integrated mechanical locking elements is understood that these form a fixed part of the floor panels, either by being connected in a fixed manner to the floor panels, or by being formed in one piece therewith.

In a first important preferred form of embodiment, the coupling parts are provided with locking elements which, in the engaged position of two or more of such floor panels, exert a tension force upon each other which force the floor panels towards each other. As a result of this that not only the formation of gaps counteracted during installation, but also in a later stage the development of gaps, from any causes whatsoever, is counteracted.

According to another characteristic of the intention, the coupling parts, hereby are formed in one piece with the core of the floor panels.

According to a second important preferred embodiment, the aforementioned optimalization is achieved in that the floor covering panel possesses the following combination of characteristics: the coupling parts and locking elements are formed in one piece with the core of the floor panels; the coupling parts have such a shape that two subsequent floor panels can be engaged into each other exclusively by snapping together and/or turning, whereby each subsequent floor panel can be inserted laterally into the previous; the coupling parts are interlocked free from play in all directions in a plane extending perpendicular to the aforementioned edges; the possible difference between the upper and lower lip of the lips which border the aforementioned grooves, measured in the plane of the floor panel and perpendicular to the longitudinal direction of the groove, is smaller than one time the total of the thickness of the panel; the total thickness of each related floor panel is larger than or equal to 5 mm; and that the basic material of the floor panels, of which the aforementioned core and locking elements are formed, consists of a ground product which, by means of a binding agent or by means of melting together, is made into a unitary composite, and/or of a product on the basis of synthetic material and/or of a chip board with fine chips.

Due to the fact that the coupling parts provide for an interlocking free from play, as well as due to the fact that these coupling parts are manufactured in one piece, from the basic material of the floor panels, a perfect connection between adjacent floor panels can always be guaranteed, even with repeated expansion and shrinkage of the floor surface.

This combination of characteristics can be combined or not with the aforementioned characteristic that the locking elements exert a tension force upon each other when panels are joined together.

According to a third important preferred embodiment, the characteristics of which may or may not be combined with the characteristics of the embodiments described above, the floor covering is characterized in that the lower lip which limits or defines the lower side of the groove, extends beyond the upper lip in the plane of the panel; the locking elements are formed at least of a contact portion which inwardly slopes downward; and that this portion, at least partially, is located in the portion of the lower lip which extends beyond the upper lip. The advantages of these features will appear from the further description.

According to a preferred form of embodiment, the floor panels are configured as elongated panels and the coupling parts described above are applied along the longitudinal sides of these panels.

According to a particular form of embodiment, coupling parts are provided at the other two sides, too, either of another construction than described above or not.

In the most preferred form of embodiment, for the basic material use shall be made of the aforementioned product, which, as said, is ground and, by means of a binding agent, made into a unitary composite material. More particularly, for the core use shall be made of finely-ground wood which preferably is glued, more particularly, moisture resistant glued. Still more particularly, for the core use shall be made of so-called HDF board (High Density Fibreboard) or MDF board (Medium Density Fibreboard) which is highly compressed ground wood particles (fibers) and binder material. Hereinafter, the wood component of the core material shall be referred to as “wood product”.

The fact that the invention is applied to floor panels the basic material of which consists of the material described above, offers the advantage that with the processing of this material, very smooth surfaces are obtained whereby very precise couplings can be realized, which, in first instance, is important in the case of a snap-together connection and/or turning connection free from play. Also, very special forms of coupling parts can be manufactured in a very simple manner because the aforementioned kinds of material can be processed particularly easy.

The surfaces obtained with HDF and MDF also have the advantage that the floor panels mutually can be shifted readily alongside each other in interlocked condition, even when engaged with a tensioning force.

The applicants also discovered that the aforementioned materials, in particular HDF and MDF, show ideal features in order to realize a connection, such as mentioned above, as these material show the right features in respect to elastic deformation in order to, on the one hand, realize a snap-together effect, and, on the other hand, receive expansion and shrinkage forces in an elastic manner, whereby it is avoided that the floor panels come unlocked or are damaged in an irreparable manner.

In the case that for the core use is made of a material based on synthetic material, to this end solid synthetic material can be used as well as a mixture of synthetic materials, eventually composed of recycled materials.

The floor covering preferably is formed by joining the floor panels into each other free of glue. Hereby, the connections are of such nature that the floor panels can be disassembled without being damaged, such that, for example, when moving from one residence or location to another, they can be taken along in order to be placed down again. It is, however, clear that a glueing between tongue and groove is not excluded.

The invention, of course, also relates to floor panels which allow the realization of the aforementioned floor covering.

The invention also relates to a method for the manufacturing of the aforementioned floor panels with which the advantage that the tongues and/or grooves, including the corresponding locking means, can be provided at the floor panels at high production speeds without problems. More particularly, it aims at a method which allows that the rather complicated forms of the tongue and the groove of the aforementioned floor panels can be formed completely by means of milling cutters, the diameter of which can be chosen independent of the form to be realized, such that the use of small milling cutters, for example finger cutters, with diameters smaller than the depth of the tongue or groove can be excluded.

In accordance with this method the tongue and/or groove is formed by means of a milling process using at least two sequential milling cycles or passes by means of milling cutters which are positioned at different angles in respect to the related floor panel. During each of the aforementioned milling cycles, preferably substantially the final form of one flank, either of the tongue or of the groove, is formed.

For the aforementioned two milling cycles, thus, milling cutters are used which extend outside the groove, respectively the tongue. More particularly the diameters of these milling cutters shall at least be 5 times and even better 20 times larger than the thickness of the floor panels.

The use of milling cutters having the aforementioned diameters has as an advantage that the normal production speeds can be maintained which are also applied during milling of a classical straight tongue and groove. There is also the advantage obtained that the installation of such milling cutters induce only minor or no additional costs because such milling cutters can be placed directly upon a motor shaft and/or the conventional machines can be used.

BRIEF DESCRIPTION OF THE DRAWINGS

With the intention of better showing the characteristics according to the invention, in the following, as an example without any limitative character, several preferred forms of embodiment are described, with reference to the accompanying drawings, wherein:

FIG. 1 represents a floor panel of a floor covering according to the invention;

FIG. 2, on a larger scale, represents a cross-section according to line II-II in FIG. 1;

FIGS. 3 and 4 represent how two floor panels with coupling parts according to FIG. 2 match into each other;

FIG. 5, on a larger scale, represents a cross-section according to line V-V in FIG. 1;

FIGS. 6 and 7 represent how two floor panels with coupling parts according to FIG. 5 match into each other;

FIGS. 8 to 11 represent a number of variants of coupling parts of floor panels according to the invention;

FIG. 12 schematically represents how the floor parts can be provided with coupling parts;

FIG. 13 represents a cross-section according to line XIII-XIII in FIG. 12;

FIGS. 14 to 21, on a larger scale and in cross-section, represent the penetration of the milling cutters which are indicated in FIG. 12 with arrows F14 to F21;

FIG. 22 represents a floor panel according to the invention;

FIG. 23, on a larger scale, represents the coupling of two floor panels of FIG. 22;

FIGS. 24 and 25 represent two manners of coupling floor panels according to FIG. 22 to each other.

DETAILED DESCRIPTION

The invention relates to a floor covering which is composed of hard floor panels 1, for example, such as a laminated panel as shown in FIG. 1.

These floor panels 1 can be of various shape, for example, rectangular or square, or of any other shape.

In the most preferred form of embodiment, they shall be manufactured in an elongated form, such as shown in FIG. 1, for example, with a length of 1 to 2 meters. The thickness, however, can also vary, but is preferably 0.5 to 1.5 cm, and more particularly 0.8 cm.

Each floor panel 1 is, at least at the edges of two opposite sides 2-3, provided with coupling parts 4-5 which permit two adjacent identical floor panels 1 to be coupled to each other.

According to the invention, the coupling parts 4-5, as represented in the FIGS. 2 to 4, are provided with integrated mechanical locking parts or locking elements 6 which prevent the drifting or sliding apart of two coupled floor panels 1 in a direction D perpendicular to the respective sides 2-3 and parallel to the underside 7 of the coupled floor panels 1; the coupling parts 4-5 and the locking elements 6 are formed in one piece with the core 8 of the floor panels 1; the coupling parts 4-5 have such a shape that two subsequent floor panels 1 can be engaged into each other solely by snapping-together and/or turning after the coupling parts are partially engaged, whereby each subsequent floor panel 1 can be laterally inserted into the previous; and the coupling parts 4-5 preferably are interlocked free from play in all directions in a plane which is located perpendicular to the aforementioned edges.

In the case of floor panels 1 with an elongated shape, as represented in FIG. 1, the respective coupling parts 4-5 are located at the longitudinal sides 2-3.

The coupling parts 4-5 can be realized in various forms, although the basic forms thereof will always be formed by a tongue 9 and a groove 10.

In the form of embodiment of FIGS. 2 to 4, the related floor panel 1 is provided with coupling parts 4-5 and locking means or locking elements 6 which allow two floor panels 1 to be mutually engaged by means of a turning movement, without the occurrence of any snap-together effect.

In the represented example, the locking elements 6 consist of a first locking element 11, formed by a protrusion with a bent round (arcuate) shape at the lower side 12 of the tongue 9 (tongue arcuate lower surface), and a second locking element 13 (shown in FIG. 2), formed by a first recess with a bent hollow or downwardly concave shape in the lower wall 14 of the groove 10 (groove arcuate lower surface portion).

The locking elements 11-13 ensure that two floor panels 1 which are coupled to each other can not move laterally in the horizontal plane with respect to each other.

In order to enable two floor panels 1 to be inserted into each other by means of a turning movement, the curvatures preferably are circular segment shaped. The bottom side 12 of locking means or locking elements 6 has a curvature with a radius R1, the center of which coincides with the respective upper edge 15 of the floor panel 1, whereas the lower wall 14 of the locking part 5 has a curvature with a radius R2 which is equal to the radius R1, but its center coincides with the respective upper edge 16. Radii R1 and R2 may also be applied which are larger or smaller than the distance to the upper edge 15, 16 respectively, and/or which differ from each other in size.

The upper side or surface 17 of the tongue 9 (tongue planar upper surface portion) and the upper surface or side 18 of the groove 10 (groove planar upper surface portion) are preferably planar and preferably are located in the horizontal plane.

The inner side 20 of the groove 10 and the front side or distal end 19 of the tongue 9 of the two interlocked floor panels 1 preferably do not fit closely against each other, such that an intermediate space 21 is created between them into which possible dust remainders or such can be pushed away by means of the tongue 9.

The tongue 9 and the groove 10 preferably have shapes which are complementary to each other, such that the tongue planar upper surface portion of tongue 9 in the engaged condition of two identical floor panels 1 precisely sits against the groove planar upper surface portion of upper wall 18 and the arcuate lower surface portion 14 of the groove 10 engages the tongue arcuate lower surface portion of tongue 9, whereby a pressure P, exerted against the first upper edge contact surface at the end of upper lip 22 by the second upper edge contact surface above the tongue 9, is received or reacted not only by this lip 22, but by the complete structure, because this pressure can be transmitted through the tongue 9 and the lower lip 23 to cause the panels to be urged towards each other.

It is, however, clear that a number of minor deviations to these complementary forms can occur which, anyhow, have no or almost no effect upon the receipt and transmission of pressure forces. For example, a chamfer 24 on lip 22 and a second recess 25 can be provided, as represented in FIGS. 2 to 4, as a result of which the subsequent floor panels 1 can easily be pushed and guided into each other, such that no possible ridges in the subflooring or such render good insertion difficult.

As represented in the FIGS. 5 to 7, the floor panels 1 according to the invention can also, along the sides 26-27 which are at a right angle to the sides 2-3, be provided with coupling parts 28-29 which have locking elements 30, too. The coupling parts 28-29 are preferably also realized in the shape of a tongue 31 and a groove 32. Hereby, the locking elements 30 do not have to be of the same nature as the locking elements 6.

Preferably, at the sides 26-27 locking elements are provided which allow for an engagement and interlocking by means of a lateral translation movement in direction T only, as represented in FIGS. 6 and 7. To this aim, the locking elements 30 consist of a snap-together connection with locking elements 33 and 34 which grip behind each other.

As represented in FIGS. 5 to 7, the locking element 33 preferably consists of a protrusion of the lower side 35 of the tongue 31 which can be located in a recess 36 in a lower lip 43 extending distally from the lower wall 37 of the groove 32. The locking element 34 is formed by the upward directed part or protrusion which defines the distally outer end of recess 36.

In this case, the locking elements 33-34 have contact or locking surfaces 38-39 which are parallel to each other and preferably extend in an obliquely inclined manner, according to a direction which simplifies the snapping-together of the panels. The common plane of tangency L which is determined by the common tangent at the meeting point or area of surfaces 38-39, hereby forms an angle A sloping inwardly and downwardly from an outer region to an inner region relative to the underside 7, which angle is smaller than 90°.

The locking elements 33-34 preferably are provided with inclined portions 40 and 41 which, when two floor panels 1 are engaged, cooperate with each other in such a manner that the locking elements 33-34 can easily be pushed over each other until they grip behind each other by means of a snap-together effect (FIGS. 6 and 7).

The thickness W1 of the tongue 31 preferably is equal to the width W2 of the groove 32, such that compression pressure P applied to the upper lip 42 is reacted by the tongue 31 which, in its turn, then is reacted by the lower lip 43.

Analogous to the chamfer 24 and recess 25, a recess or clearance 44 and a chamfer 45 are provided also at the edges 28-29 above a tongue planar upper surface as shown when panels are coupled along cooperating edges 28-29 the recesses 44 defines a chamber 25′ as shown in FIG. 4. Panel edges contact each other above the recess 44, as shown at upper edge contact surfaces.

It is noted that such a snap-together coupling can also be applied at the edges 2-3. Hereby, this can be a snap-together coupling analogous to these of FIGS. 5 to 7, but this can also be a snap-together coupling using other forms of coupling configurations, for example, such as represented in FIGS. 8 and 9. Contrary to the locking elements 33-34 which consist of rather local protrusions, in the forms of embodiment of FIGS. 8 and 9 use is made of locking elements 46-47 which, in comparison to the total width B of the coupling, extend over a rather large distance.

In this case, the locking elements 46-47 are also provided at the lower side 12 of the tongue 9 and the lower wall 14 of the groove 10.

According to FIG. 8, the locking elements 46-47 have contact surfaces 48-49 which are at an angle with the plane of the floor panel 1. In this manner, a coupling is obtained which is interlocked in a particularly fixed manner.

As represented in FIG. 9, the locking elements 46-47 possibly can be configured in such a manner that substantially only a linear contact is obtained, for example, because the contact surfaces directed towards each other are formed with different curvatures.

The surfaces, directed towards each other, of the locking elements 46-47 hereby consist of curved surfaces. The common plane of tangency L forms an angle A which is smaller than 90°, and more preferably is smaller than 70°.

In this manner, the locking element 46 preferably has two portions with a different curvature, on one hand, a portion 50 with a strong curvature and, on the other hand, a portion 51 with a weak curvature. The portion 50 with the strong curvature provides for the formation of a firm coupling. The portion 51 with the weak curvature facilitates the coupling parts 4-5 to be brought into each other easily. The collective surfaces 50 and 51 may be referred to as the tongue arcuate lower surface portion, in the same manner as the tongue arcuate lower surface portion in FIGS. 2 to 4 described above. The tongue and groove FIGS. 9 and 10 include tongue planar upper surface portions and the groove 10 includes a groove planar upper surface portion and a groove arcuate lower surface portion similar to the example show in FIGS. 2 to 4. The intermediate space S forms a chamber which offers space for dust and the like which, when engaging two floor panels 1, inevitably infiltrates there. The chamber at intermediate space S, the chamber 25′ defined by recess 44, and clearance 21 are or may be essentially independent clearances or chambers when the tongue and groove elements are coupled, as illustrated. It will be noted that the tongue 9 in FIGS. 9 and 10 has a cross-sectional periphery that defines the outer shape of the tongue in transverse cross-section. As illustrated, the tongue 9 includes an upper surface 9 a, a lower surface 9 b and a distalmost surface 9 c, the outer form or profile of the tongue along and connecting these surfaces constituting a tongue periphery that includes an upper tongue contact surface 9 d that engages an upper groove or lip contact surface 22 a when panels are coupled as seen in FIG. 9 and the lower contact surface 48′ engaging the lower groove or lip contact surface 49′ intersecting the common plane of tangency L in this example.

As seen in FIGS. 5, 6 and 7, an intermediate lower tongue contact surface 31 a engages intermediate lower groove, or lip contact surface 32 a when the tongue 31 and groove 32 are coupled together. The intermediate contact surfaces are located along the periphery of tongue 31 and the surface of groove 32 between lower contact surfaces 38, 39 and upper contact surfaces 85, 86 between the tongue and groove elements.

In the case of a snap-together connection, for example, a connection such as represented in FIGS. 7 to 9, preferably the tongue 9-31 has a shape that thickens from below, which then can cooperate with a widened portion in the groove 10.

In FIG. 10, a variant is represented whereby at least at the level of the upper contact edges 15-16, a sealing material 52 is provided, as a result of which a watertight sealing can be assured. This sealing material 52 may consist of a strip or covering which is provided previously at the floor panel 1, either at one or both upperside edges 15-16.

In FIG. 11, a further variant is represented, whereby the locking element 6 is formed by an upward directed portion 53 at the tongue 9, which as a result of a turning movement of the panel, is brought behind a downward-directed portion 54 on the upper wall 18. More particularly, this is obtained by forming the upper side 17 and the upper wall 18 with a curvature R3, the center of which is situated at the upperside edges 15-16, and forming the lower side 12 and the lower wall 14 with a radius R4, the center of which is also situated at the upperside edges 15 and 16, respectively. These radii R3-R4 can be chosen otherwise, too.

In general, according to the invention, the difference between, on one hand, the radius R1, R3 respectively, and, on the other hand, the radius R2, R4 respectively, preferably should not be larger than 2 mm.

It is also preferred that the center of these radii be situated inside the circle C1, C2 (see FIG. 2) respectively, which extends with a radius R5 of 3 mm centered at upperside edge 15, 16 respectively.

Finally is noted that, according to the invention, the lower lip 23-43, as represented in FIGS. 2 to 7, can be formed distally longer than the upper lip 22-42. This has an advantage that the coupling parts 4-5-28-29 can be shaped in an easier manner by means of a milling cutter or the like. Furthermore, this simplifies the engagement of two floor panels 1, because each subsequent floor panel 1 during installation can be placed upon the protruding lower lip 23-43, as a result of which the tongue 9-31 and the groove 10-32 automatically are positioned in front of each other. On the other hand, in accordance with FIGS. 9-11, the upper and lower lips 22, 23 can be substantially the same length so as to terminate in a common vertical plane.

The embodiments wherein the lower lip 23 is equal to or distally shorter than the upper lip 22, in their turn, offer the advantage that no protruding lip 23 remains at the extreme edge of the floor which might cause problems in finishing the floor installation.

In order to allow for a smooth assembly, to guarantee the necessary stability and firmness and in order to limit the quantity of material to be cut away, the difference E between the distally outer edge of the upper lip 22-42 and the distally outer edge of the lower lip 23-43, measured in the plane of the floor panel and perpendicular to the longitudinal direction of the groove 10, should preferably be kept smaller than one time the total thickness F of the floor panel 1. For stability's sake, normally this total thickness F shall never be less than 5 mm.

The small dimension of the difference E offers the advantage that the lower lip need not be strengthened by a reinforcement strip or the like.

According to a particular form of embodiment, the central line M1 through the tongue 9 and the groove 10 is situated lower than the center line M2 of the floor panel 1, such, that the upper lip 22-42 is thicker than the lower lip 23-43. In first instance, this is essential in this kind of connection, because then it is the lower lip 23-43 which bends, whereby the upper side of the floor panel 1 is kept free of possible deformations.

As explained in the introduction, for the core 8 a material is chosen from the following series:

-   -   a ground product which, by means of a binding agent or by means         of melting together is made into a unitary composite material;     -   a product based on synthetic material;     -   chip board with fine chips.

The invention shows its usefulness, in first instance, preferably with laminated flooring, due to the reasons explained in the introduction.

As represented in the examples of the FIGS. 2 to 11, such laminated flooring preferably consists of a core 8 made of MDF medium density fiberboard board, HDF high density fiberboard board or similar, whereby at least at the upper side of this core 8 one or more layers of material are provided.

More particularly, it is preferred that the laminated flooring is provided with a decorative layer 55 and a protective top layer 56. The decorative layer 55 is a layer, impregnated with resin, for example, made of paper, which can be imprinted with a variety of patterns, such as a wood pattern, a pattern in the form of stone, cork, or similar or even with a fancy pattern. The protective top layer 56 preferably also consists of a layer saturated with resin, for example, melamine resin, which in the final product is transparent.

It is clear that still other layers can be applied, such as an intermediate layer 57 upon which the decorative layer 55 is provided.

Preferably, also a backing layer 58 shall be applied at the underside 7, forming a counterbalancing element for the top layers and, thus, guaranteeing the stability of the form of the floor panel 1. This backing layer 58 may consist of a material, for example paper, impregnated with a resin, for example, a melamine resin.

As represented schematically in FIG. 12, the tongue 9 and the groove 10, and preferably also the tongue 31 and the groove 32 are formed by means of a milling process. In the case that a profile has to be applied on all four sides, the floor panels 1 preferably shall be displaced by means of two sequential perpendicular movements V1 and V2, whereby during the first movement profiles at two opposite edges are provided, in this case the longitudinal edges, by means of milling devices 59-60, whereas during the second movement profiles are provided at the other edges, in this case the small edges, by means of milling devices 61-62. During these processing, the floor panels 1 preferably are put with their decorative layer directed downward.

According to an important characteristic of the invention, each respective tongue 9-31 and groove 10-32 are formed by means of a milling process with at least two sequential milling cycles or passes by means of milling cutters which are positioned at different angles in reference to the related floor panel 1.

This is illustrated in FIGS. 13, 14 and 15, wherein it is represented how a groove 10 is realized by means of two milling cycles by means of two milling cutters 63 and 64. FIGS. 16 and 17 represent how the tongue 9 is shaped by means of milling cutters 65 and 66.

The FIGS. 18-19 and 20-21 represent similar views showing how the groove 32 and the tongue 31 are shaped by means of milling cutters 67-68 and 69-70, positioned at an angle.

During each of the aforementioned milling passes, substantially the final shape of one flank is fully realized. For example, the milling cutter 63 of FIG. 14 determines the final shape of the lower flank 71 of the groove 10, whereas the milling cutter 64 determines the final shape of the upper flank 72.

As mentioned in the introduction, preferably milling cutters 63 to 72 shall be used, having diameters G which are at least 5 times, and even better at least 20 times larger than the thickness F of the floor panels 1.

Apart of the mentioned milling cutters, preferably still other milling cutters are applied, for example, in order to remove a part of the material to be removed during a first premachining cycle.

In the FIGS. 22 to 25, a particularly preferred form of embodiment of a floor panel 1 according to the invention is represented. Hereby, the parts which correspond with the previous embodiments are indicated with corresponding references.

An important characteristic herein consists in that the coupling parts 4-5 are provided with locking elements 6 which, in engaged condition with the panels in a common plane, exert a tension force upon each other, as a result of which the engaged floor panels 1 are forced towards each other in compression. As represented, this is realized preferably by providing the coupling parts with an elastically yieldable or bendable portion, in this case the lower lip 43, which, in engaged condition, is at least partially bent away from a relaxed unbent position and in this way creates a tension force which results in the engaged floor panels 1 being forced towards each other. The resultant bending V, as well as the tension force K, are indicated in the enlargement view of FIG. 23.

In order to obtain the tension force K pressing together the engaged floor panels 1, the bendable portion, in this case the lip 43, preferably is provided, as represented, with an inwardly and downwardly inclined contact surface 73 which preferably can cooperate with a corresponding contact surface 74 on tongue 9. These contact surfaces 73-74 are similar to the aforementioned contact surfaces 39-38 and also similar to the inclined portions of the lower lip of FIGS. 2 to 4.

In the FIGS. 2 and 5, the portions form complementary matching shapes; it is, however, clear that, by a modification, also a tension effect similar to that shown in FIG. 23 can be realized.

Due to, on one hand, the contact along the angle A, and, on the other hand, the fact that a tension force K is created, a compression force component K1 is produced, as a result of which the floor panels 1 are drawn against each other in compression.

Preferably, the angle A of the mutual plane of tangency of contact surfaces 73-74 relative to the horizontal plane is situated between 30 and 70 degrees. In the case that use is made of the embodiment whereby a tension force K is realized, an angle A of 30 to 70 degrees is ideal in order, on one hand, to effect an optimum pressing-together of the floor panels 1 and, on the other hand, to ensure that the floor panels 1 can easily be engaged and respectively disassembled.

Although the pressing or compression force component K1 preferably is delivered by the aforementioned lip 43, the invention does not exclude other forms of locking elements or structures whereby this force is delivered by other bendable portions.

It is noted that the bending V is relatively small, for example, several hundredths up to several tenths of a millimeter, and does not have an influence upon the placement of the floor covering. Furthermore it should be noted that such floor covering generally is placed upon an underlayer (not shown) which is elastically compressible, as a result of which the bending V of the lip 43 only produces local bending of the underlayer.

Due to the fact that the lip 43 is bent apart and that it remains somewhat bent apart in engaged position, the additional advantage is obtained that, when exerting a pressure upon the floor covering, for example, when placing an object thereupon, the pressing-together compressive force is enhanced and, thus, the development of gaps is counteracted even more.

It is noted that the inventors have found that, contrary to all expectations, an ideal tension force can be realized by manufacturing the coupling parts 4-5, including the locking elements 33-34, and preferably the complete core 8, of HDF board or MDF board, although these material normally only allow a minor elastic deformation.

HDF and MDF also offer the advantage that smooth surfaces are obtained, as a result of which the locking elements can be moved easily over each other.

According to a variant of the invention, the tension force can also be supplied by means of an elastic compression of the material of the coupling parts themselves, to which end these coupling parts, and preferably the complete core 8, would be manufactured using an elastically compressible material.

A further particular characteristic of the embodiment of FIGS. 22 to 25 consists in that the floor panels 1 can be selectively engaged by means of a turning movement, as represented in FIG. 24, as well as by means of laterally shifting them towards each other in substantially a common plane, as represented in FIG. 25, preferably in such a manner that, during the engagement by means of the turning movement with the coupling parts partially engaged, a maximum bending Vm results in the coupling parts, more particularly in the lip 43, which bending Vm is less pronounced, if not nonexistent, as in the FIGS. 2 to 4, in comparison to the bending Vm which results when the floor panels 1 are engaged by means of shifting them towards each other, as in FIG. 15.

The advantage of this consists in that the floor panels 1 can be engaged easily by means of a turning movement, without necessitating use of a tool therefore, whereas it still remains possible to engage the floor panels also by means of shifting them laterally. This latter is useful, in first instance, when the last panel has to be placed partially under a door frame or similar situation. In this case, the floor panel 1 can be pushed under the door frame with the side which does not have to be engaged and subsequently, possibly by means of tools, can be snapped into the adjacent floor panel by lateral sliding together.

It is noted that the shapes of the coupling parts 4-5 shown in FIGS. 22 to 25 can also be used for the coupling parts 28-29 of the short sides of the panels.

According to the invention, in the case that the four sides 2-3-26-27 are provided with coupling pars 4-5-28-29, these coupling parts can be formed in such a manner that in one direction a firmer engagement than in the other direction is effected. In the case of elongated floor panels 1, for example, such as represented in FIG. 1, the locking at the small sides 26-27 preferably shall be more pronounced than at the longitudinal sides 2-3. The length of the parts at the small sides, namely, is smaller and, in principle, less firm. This is compensated for by providing a more pronounced locking.

This difference in engagement can be obtained by shaping the contact surfaces 73-74 with different angles.

Preferably, the aforementioned protrusion, more particularly the locking element 33, is bounded by at least two portions 75-76 (shown in FIG. 22), respectively a portion 75 with a strong (steep) inclination which provides for the locking, and a portion 76 with a weaker (less inclined) inclination which renders the engagement or guidance of the coupling parts easier. In the embodiment of FIGS. 22 to 25, these portions 75-76 are formed by straight planes, but, as already described with reference to FIG. 9, use can also be made of curved portions 50-51. In FIG. 5, these are the contact surface 38 and the inclined portion 40.

In the preferred form of the invention, the floor panels 1 comprise coupling parts 4-5 and/or 28-29 exhibiting one of the following or the combination of two or more of the following features:

-   -   a curvature 77 (shown in FIG. 22) at the lower side of the         tongue 9 and/or a curvature 78 at the lower lip 43 which form a         guidance when turning two floor panels 1 into each other, with         the advantage that the floor panels 1 can be engaged into each         other easily during installation;     -   roundings 79-80 at the edges of the locking elements 33-34, with         the advantages that the locking elements can easily shift over         each other during their engagement, or during disassembly of the         floor panels 1 and that the locking elements will not be         damaged, for example, crumble away at their edges, even if the         floor panels are engaged and disassembled;     -   dust chambers 81, or spaces 21 as in FIG. 4, between all sides,         directed laterally towards each other, of the engaged floor         panels 1, with the advantage that inclusions which get between         the floor panels 1 during the engagement do not exert an adverse         influence upon good engagement;     -   a shaping of the tongue 9 which is such, for example, by the         presence of a chamfer 82, that the upper side of the tongue 9         becomes situated from the first joining together or substantial         contact of the panels, under the lower side of the upper lip 42         when the floor panels 1 are pushed towards each other in         substantially the same plane, as indicated in FIG. 25, with the         advantage that the front extremity or end of the tongue 9 does         not press against the front side of the upper lip 42 or the         front edge of the bottom lip 43 when the floor panels are pushed         towards each other in the same plane;     -   a ramp surface 83, hereinbefore also called inclined portion 41,         formed at the distally outer end of the lower lip 43, with the         advantage that the locking elements 33-34 shift smoothly over         each other and that the lower lip 43 is bent uniformly;     -   in the engagement direction only one important contact point         which is formed by a section 84 at the location of the upperside         edges of the floor panels 1, with the advantage that the         aforementioned tension force is optimally transferred to the         upper side of the floor panels 1 and that the development of         openings between the floor panels 1 is counteracted;     -   contact surfaces 85-86, more particularly abutment surfaces,         formed by the upper side of the tongue 9 and the upper side of         the groove 10 which, over the largest portion of their length,         are flat and run parallel to the plane which is defined by the         floor panels 1, as well as contact surfaces cooperating with         each other, formed by curvatures 77-78, with the advantage that         no mutual displacement in height between two engaged floor         panels 1 is possible, even if the insertion depth of the tongue         9 into the groove 10 should vary due to various causes; in other         words, no height differences may occur between the adjacent         floor panels.

In the embodiment of FIGS. 22 to 25, all these characteristics are combined; it is, however, clear that, as becomes evident from FIGS. 2 to 11, these features can also be provided separately or in a limited combination with one another.

As becomes evident from FIGS. 5 to 7 and 22 to 25, an important characteristic of the preferred embodiment of the invention consists in that the cooperative locking element 6, in other words, the portion providing for the snap-together and engagement effect, are situated in that portion of the lower lip 23-43 which extends beyond the distal edge of the upper lip 22-42, more particularly, the lowermost point 87 of the locking part 33 is situated under the top layer of the floor panel 1. For clarity's sake, this top layer is indicated in the FIGS. 22-25 only as a single layer.

It should be noted that the combination of features, the lower lip 23-43 extending further than the upper lip 22-42; the locking elements 6 being formed at least by means of a contact surface portion which inwardly slopes downward, and wherein this portion, at least partially, is located in the portion of the lower lip 23-43 which extends distally beyond the upper lip 22-42, is particularly advantageous, among others, in comparison with the couplings for floor panels described in the documents WO 94/01628, WO 94/26999, WO 96/27719 and WO 96/27721. The sloping contact surface portion offers the advantage that the floor panels 1 can be disassembled again. The fact that this sloping portion is situated in the extended portion of the lower lip 23-43 adds the advantage that no deformations can occur during coupling which manifest themselves up to the top layer.

According to a preferred characteristic of the invention, the aforementioned portion, i.e. the contact surface 39 or 73, preferably extends in such a manner that the distance between the upper edge 16 of the panel to the contact surface 39, 73 diminishes between the proximal and distal ends of the sloping contact surface 39, 73, in other words, such that, as represented in FIG. 22, the distance X2 is smaller than the distance X1. This is also the case in FIG. 7.

Still preferably, this portion only starts at a clear distance E1 from the outer edge of upper lip 42.

It is obvious that the coupling parts 22 to 25 can also be shaped by means of said milling process.

According to a particular characteristic of the invention, the floor panels 1 are treated at their sides 2-3 and/or 26-27 with a surface densifying agent, more particularly a surface hardening agent, which preferably is chosen from the following series of products: impregnation agents, pore-sealing agents, lacquers, resins, oils, paraffins and the like.

In FIG. 22, such impregnation 88 is represented schematically. This treatment can be performed over the complete surface of the sides 2-3 and/or 26-27 or only over specific portions hereof, for example exclusively on the surfaces of the tongue 9 and the groove 10.

The treatment with a surface densifying agent offers, in combination with the snap-together effect, the advantage that in various aspects better coupling characteristics are obtained. As a result of this, the coupling parts 4-5 and/or 28-29 better keep their shape and strength, even if the floor panels 1 are engaged and disassembled repeatedly. In particular, if the core 8 is made of HDF, MDF or similar materials, by means of this treatment a better quality of surface condition is obtained, such that no abrasion of material occurs during engaging, or during disassembling.

This treatment also offers the advantage that, at least in the case of a surface hardening, the aforementioned elastic tensioning effect is enhanced.

The present invention is in no way limited to the forms of embodiment described by way of example and represented in the figures, however, such floor covering and the pertaining floor panels 1 can be embodied in various forms and dimensions without departing from the scope of the invention.

For example, the various characteristics which are described by means of the represented embodiments or examples may be selectively combined with each other.

Furthermore, all embodiments of coupling elements described before can be applied at the longer side as well as at the shorter side of a panel. 

1. Method for making a floor panel that includes an upper side, an underside, and a first and second pair of opposite side edges that each include upper side edges adjacent the panel upper side; the first pair of side edges including coupling parts, said coupling parts being configured to enable two of such panels to be mechanically coupled to each other, said coupling parts being in the form of a tongue and a groove having locking elements including locking surfaces, said coupling parts and locking elements of said first pair of side edges providing a locking between coupled panels when a tongue of one panel is received in a groove of the other panel preventing separation of the panels in vertical and horizontal directions, said groove being bordered by an upper lip and a lower lip; the second pair of side edges including coupling parts also configured to enable two of such panels to be mechanically coupled to each other, said coupling parts of said second pair of side edges being provided with locking elements, said coupling parts and locking elements of said second pair of side edges providing a locking between coupled panels preventing separation of coupled panels in vertical and horizontal directions; comprising the steps: forming the coupling parts on said first pair of opposite side edges and on said second pair of opposite side edges in such a manner that on said second pair of side edges a firmer locking between the coupling parts is provided in the horizontal direction perpendicular to the related edges and parallel to the underside of the coupled panels than is provided at said first pair of opposite side edges and such that, at the first pair of side edges, said locking surfaces contact each other when a pair of the panels are coupled by placement of the tongue part of one panel into the groove part of the other panel with the upper side edges of the panels adjoining each other, to thereby secure the upper side edges of said coupled panels in adjoined relationship while preventing unintentional separation between the upper side edges that would produce undesired gaps between the upper side edges in a direction perpendicular to the related side edges and parallel to the underside of the coupled floor panels.
 2. Method according to claim 1, including forming obliquely inclined locking surfaces on the locking elements of the two opposed pairs of side edges, which in the coupled condition of two of such panels contact each other and provide said locking in said horizontal direction; and forming the locking surfaces on the opposed side edges of the second pair of side edges so they are inclined at different angles than the locking surfaces at the opposed side edges of the first pair of side edges to provide said difference in firmness of locking between the coupling parts of the opposite pairs of side edges.
 3. Method according to claim 1 or 2, including forming said panels as oblong panels with a length dimension longer than a width dimension, wherein said first pair of opposite side edges extends along the length dimension of the panel and said second pair of opposite side edges extends along the width dimension of the panel.
 4. Method according to claim 1 or 2, wherein at said first pair of opposite side edges, said locking elements comprise a recess on a lower lip of the groove and a protrusion on a lower surface of the tongue; said method including forming said tongue, groove, coupling parts and locking elements as profiles on said opposite side edges of said first pair of opposite side edges; said step of forming the groove portion of the profiles at the first pair of opposite side edges comprising the steps: forming said groove profile to provide an upper side and a bottom side of the groove such that said groove is bordered by an upper lip and a lower lip; further forming said groove and recess on the lower lip of the groove by using at least two rotary cutting tools which are positioned at different angles relative to said floor panel so as to form said groove including its upper and lower lips using the first of said two tools in a first pass along the panel edge at which the groove is located, and then forming said recess in said lower lip such that an upper side of said lower lip of said groove is provided with said recess by using the second of the two tools in a second pass along said panel edge at which the groove is located.
 5. Method according to claim 1 or 2, wherein the groove at said first pair of opposite side edges includes upper and lower lips, including forming said lower lip so that it extends distally beyond said upper lip; and forming said locking elements as a recess on the upper side of the lower lip of the groove and as a protrusion on a lower side of the tongue; including forming said recess at least partially in a portion of the lower lip which extends beyond the upper lip.
 6. Method according to claim 5, including forming said lower lip such that the lower lip extends beyond said upper lip by a distance less than the total thickness of the floor panel.
 7. Method according to claim 1 or 2, including, at least at said first pair of opposite side edges, forming the coupling parts and locking elements in one piece with the floor panel.
 8. Method according to claim 1 or 2, including, at said second pair of opposite side edges, forming the coupling parts in the form of a tongue and a groove.
 9. Method according to claim 8, including, at said second pair of opposite side edges, forming said locking elements as integrated parts of the tongue and groove coupling parts which cooperate and contact each other upon coupling of a pair of panels by placing a tongue of one edge into a groove of the other edge along respective side edges of said second pair of side edges such that the drifting apart of two coupled floor panels in a direction perpendicular to the respective side edges of said second pair of side edges and parallel to the underside of the coupled floor panels is prevented.
 10. Method according to claim 9, including, at said second pair of opposite side edges, forming said groove with upper and lower lips, and forming said locking elements as a snap-together connection by forming the lower lip so that it temporarily interferes with placement of the tongue of one panel into the groove of the other panel during coupling of a pair of panels, requiring elastic displacement of the lower lip to accommodate at least a portion of the tongue during coupling of a pair of panels, with the tongue and lower lip formed such that upon coupling of a pair of panels, the lower lip of the groove of one panel is temporarily elastically displaced by the tongue and snaps back towards its original position upon placement of the tongue within the groove.
 11. Method according to claim 10, including, at said second pair of opposite side edges, forming said upper and lower lips such that said lower lip extends distally beyond said upper lip; forming said locking elements as a recess on the lower lip of the groove and as a protrusion on the lower side of the tongue; and forming said recess at least partially in a portion of the lower lip which extends beyond the upper lip.
 12. Method according to claim 11, including forming said lower lip such that it extends beyond said upper lip by a distance less than the total thickness of the floor panel.
 13. Method according to claim 1 or 2, including, at said second pair of opposite side edges, forming the coupling parts and locking elements in one piece with the floor panel.
 14. Method according to claim 1 or 2, including forming said panel with a total thickness of 0.5 to 1.5 cm. 